EP0520410A1

EP0520410A1 - Control apparatus with terminal arrangement

Info

Publication number: EP0520410A1
Application number: EP92110643A
Authority: EP
Inventors: Eizi Mitsubishi Denki K.K. Ito
Original assignee: Mitsubishi Electric Corp
Current assignee: Mitsubishi Electric Corp
Priority date: 1991-06-24
Filing date: 1992-06-24
Publication date: 1992-12-30
Anticipated expiration: 2012-06-24
Also published as: JPH0562724A; JP2684897B2; DE69206330D1; EP0520410B1; HK1007233A1; DE69206330T2; US5267124A

Abstract

An inverter module design having layered printed wiring boards (4, 5) for main and control circuit components, the printed wiring boards (4, 5) having external terminals (6, 7) for connection to external wiring (9, 10), the terminals on adjacent boards being arranged orthogonally. An option circuit printed wiring board (14) is connectable to the control circuit board (5) by quick-connect, one-touch mating connectors.

Description

BACKGROUND OF THE INVENTION

Field of the Invention

The present invention relates to a control apparatus and more particularly to a control apparatus, such as an inverter, which is provided for ease of wiring and handling.

Description of the Background Art

Inverters have become important to machine systems used in various industrial fields, particularly as a speed control apparatus for motors in such machine systems. Often, in complex systems employing a plurality of motors, several controllers are mounted together on a common panel in a confined space, necessitating designs that minimize the area required for installation and wiring yet permit easy access for maintenance and repair. However, in direct conflict with this aim, a larger number of functions with greater sophistication have been added to inverters. Even though further reductions in the inverter size may be possible as chip functions are integrated and chip size is reduced, certain basic requirements prevent the panel arrangement for a plurality of controllers from becoming compact.
An inverter unit consists of a main circuit printed wiring board (PWB) with heat generating components such as diode modules and transistor modules that are usually mounted on a PWB rear side, and capacitors, connectors, protective function circuit components and terminal blocks that are usually mounted on the PWB front side. The main circuit PWB is fixed to the inside of an aluminum die casting chassis that is constructed with heat radiation fins, acting as heat sinks. Since the base surfaces of the heat generating diode modules and transistor modules, which are installed on the rear side of the main circuit PWB, are in direct contact with the inside surface of the metal chassis, heat generated by the modules will be conducted through the chassis and radiated from the heat sink structure which extends from the chassis.
Also forming part of the inverter unit are electric components which constitute a control circuit on a control circuit PWB. The control circuit PWB has terminal blocks for external wiring connection and is installed on the top side of the main circuit PWB. Further, an option circuit PWB may also be installed on the top side of the control circuit PWB. Such an arrangement of the main circuit PWB, the control circuit PWB and the optional function PWB is often arranged in three stages.
Finally, a cover to protect the PWB components is ordinarily installed on the chassis.
External cable connecting terminals are mounted on the bottom side of each printed board and are arranged in the order of the main circuit PWB, the control circuit PWB, and the option circuit PWB. The terminals on a lower PWB usually have a shorter length than those on a PWB above, and the terminal blocks are placed on the side of each PWB. This arrangement presents a great difficulty for the connection of a large number of wires to a single controller and the arrangement of a plurality of controllers on a single panel. This difficulty can be better understood from a consideration of the sizes and numbers of wires that must be connected to a conventional controller with presently available functions. The numbers of external cable connecting terminal blocks and cable sizes for 200 V 3,7 kW inverters are as follows:

Number of Terminals Cable Size

Main circuit terminal block 9 3,5 mm² (AWG12)

Control circuit terminal block 30 0,75 mm² (AWG18)

Option circuit terminal block 28 0,75 mm² (AWG18)
When every function is provided in the inverter unit so that it can be used in every possible field as an industrial machine system, the product will become very complicated. Depending upon the way such a unit is actually used, unnecessary functions may be provided. To avoid this problem, the control circuit PWB is equipped with certain basic functions which are commonly used and the option circuit PWB is provided with functions which will serve only for specific purposes. By selectively combining a customized option circuit PWB with a inverter unit main body, an efficient and economical inverter unit, which is appropriate for specific applications, will be provided.
Figure 13 is a schematic circuit diagram of an inverter unit 51, which is connected to a source of power via plug connectors 55A and to a motor M via connectors 55B for controlling the operation of the motor M. A main circuit PWB 53 in the unit has a diode module 53A and transistor module 53B at a first level. A control circuit PWB 54 is connected by wires to the main circuit PWB 53 and has terminals 56 for external connection. Optional circuit PWB modules 63A and 63B are connectable by a connector 64 to the control circuit PWB 54 and have external terminal blocks 65.
Fig. 9 is a plan view of an inverter unit known in the art. Fig. 10 is a sectional view taken along the plane 10-10 of Fig. 9.
In this inverter unit 51, a main circuit printed wiring board 53 and a control circuit printed wiring board 54 are contained and secured in an aluminum diecast chassis 52. The main circuit printed wiring board 53 and the control circuit printed wiring board 54 are arranged in two stages. The main circuit PWB 53 is disposed in the lower position and the control circuit PWB 54 in the upper position. Within the chassis 52, the bottom of the main circuit PWB 53 is lower than that of the control circuit PWB 54.
A main circuit external cable connecting terminal block 55 is disposed and secured on the bottom of the main circuit PWB 53 which is exposed under the control circuit PWB 54.
A control circuit external cable connecting terminal block 56 is disposed and secured to the bottom of the control circuit PWB 54.
A cover 57 is a protective cover for electronic components mounted on the control circuit PWB 54. A wiring cover 61 shown in Fig. 10, which is installed to the area of the main circuit external cable connecting terminal block 55 and the control circuit external cable connecting terminal block 56, is removable as shown in Fig. 9.
Main circuit external cables 59 are all connected to the main circuit external cable connecting terminal block 55. Control circuit external cables 60 are all connected to the control circuit external cable connecting terminal block 56.
A rubber bushing 58 is fitted in an installation hole formed in the bottom side face of the chassis 52.
In the inverter unit 51, the main circuit external cables 59 for power supply, motor etc. are directed into the chassis 52 through the rubber bushing 58 and the leading edges thereof are connected to the main circuit external cable connecting terminal block 55. Further, the control circuit external cables 60 for start, stop, speed setting and other signals are led into the chassis 52 through the rubber bushing 58 and the leading edges thereof are connected to the control circuit external cable connecting terminal block 56.
A corresponding conventional design has been disclosed in Japanese Patent Disclosure Publication No. 105903 of 1990.
Another conventional design for an inverter unit is shown in Figs. 11 and 12. Fig. 11 is a front view thereof and Fig. 12 is a vertical sectional view of Fig. 11. Referring to Figs. 11 and 12, the numerals 52 to 57, 59 and 60 designate identical parts to those in Figs. 9 and 10 and such parts will not be described here.
In this inverter unit 62, a main circuit PWB 53, a control circuit PWB 54, and an option circuit PWB 63 for implementing additional functions as an option are housed and secured in an aluminum diecast chassis 52. The printed wiring boards are arranged in three stages; the main circuit printed wiring board 53 is disposed in the lower position, the control circuit printed wiring board 54 in the middle position, and the option circuit printed wiring board 63 in the upper position. For electrical connections, the main circuit PWB 53 and control circuit PWB 54 are connected by a connector or a flat cable (not shown), and the control circuit PWB 54 and the option circuit PWB 63 are connected by a connector 64.
Within the chassis 52, the bottom of the main circuit PWB 53 is lower than that of the control circuit PWB 54, and a main circuit external cable connecting terminal block 55 is disposed and secured to the exposed bottom of the main circuit PWB 53.
A control circuit external cable connecting terminal block 56 is disposed and secured to the bottom of the control circuit PWB 54. Similarly, an option external cable connecting terminal block 65 is disposed and secured in a plane (shown as horizontal) defined by the bottom of the option circuit PWB 63, which is connected with the control circuit PWB 54 by the cable or connector 64.
A cover 57 is a protective cover for electronic components mounted over the control circuit PWB 54 and option circuit PWB 63, and forms openings in the positions of the main circuit external cable connecting terminal block 55, the control circuit external cable connecting terminal block 56 and the option circuit external cable connecting terminal block 65 so that the terminal blocks 55, 56 and 65 are exposed and may be viewed from the outside.
Main circuit external cables 59 are all connected to the main circuit external cable connecting terminal block 55. Control circuit external cables 60 are all connected to the control circuit external cable connecting terminal block 56. Option external cables 66 are all connected to the option external cable connecting terminal block 65.
A bottom cover 67 is designed to fit over the opening and protect the whole inverter unit 62 after the cover 57 has been fitted and fixed and the external cables have been connected to the corresponding terminal blocks.
In the inverter unit 62, the main circuit external cables 59 for power supply, motor etc. are led into the chassis 52 and the leading edges thereof are connected to the main circuit external cable connecting terminal block 55. Further, the control circuit external cables 60 for start, stop, speed setting and other signals are directed into the chassis 52 and the leading edges thereof are connected to the control circuit external cable connecting terminal block 56. Similarly, the option external cables 66 are led into the chassis 52 and their leading edges are connected to the option external cable connecting terminal block 65.
As previously mentioned, conventional inverter units tend to have enhanced functions and the terminals of external cable connecting terminal blocks, particularly those of a control circuit external cable connecting terminal block, are increasing in number. On the other hand, the inverter units tend to be made more compact in size. As a result, if all of the external cable connecting terminal blocks are arranged in one direction as in the conventional inverter unit 51 shown in Figs. 9 and 10, the number of stages increases and wiring space is reduced. Further, since the wiring gages will vary for different input and output connections of the inverter unit, and the number of terminal blocks is substantial, work on installing and maintaining the inverter unit becomes extremely difficult.
Also, since the control circuit external cables 60 hang down in front of the main circuit external cable connecting terminal block 55, it is difficult to check, for example, the terminal numbers or connected external cable numbers of the main circuit external cable connecting terminal block 55, rendering maintenance and inspection difficult.
The conventional inverter unit shown in Figs. 11 and 12 also encounters problems. When the option printed wiring board or the inverter unit factory-shipped is to be installed, the cover etc. must be removed and care must be taken so as not to touch the other parts, not to cause a short circuit or other failures. In addition, when an option PWB is to be added after the external cables have been connected, all the external cables must be disconnected, the cover removed, and the option PWB then fitted.

SUMMARY OF THE INVENTION

Accordingly, an object of the invention is to provide a control apparatus which facilitates both the installation and the maintenance and inspection of wiring.
A further object of the invention is to provide a control apparatus which not only allows an option printed wiring board to be installed easily after it has been assembled and completed but also ensures that external cables can be connected easily.
In this control apparatus, connecting terminal blocks are disposed in optimum positions for wiring work to provide sufficient wiring space, thereby ensuring ease of wiring work. Also, external cables connected to one terminal block can be routed so as not to conceal any other connecting terminal block.
According to the control apparatus of a first embodiment of the present invention, at least one fuse terminal block is arranged in a first orthogonal (e. g. vertical) direction and then a second terminal block is arranged in a second orthogonal (e. g. horizontal) direction, with a difference in level given by installing the second terminal block in a lower position than the first terminal block. Also, sufficient wiring space is provided, ensuring ease of wiring work. External cables can be routed without covering and hiding the second terminal block, thereby facilitating installation and maintenance work.
According to a second embodiment of the invention, an option printed wiring board and a recess are provided in a cover of the inverter unit allowing an option case to be installed from the outside of the cover. In this manner, an option can be added at any desired time, and when the inverter unit is to be changed due to its failure etc., the option installed can be removed without requiring the external cables to be disconnected.
According to a further feature of the invention, a control circuit printed wiring board is disposed on a first top portion of a main circuit printed wiring board and an option printed wiring board on a second top portion thereof arranging the terminal blocks in a U pattern. In this manner, external cables can be routed easily and wiring can be facilitated.
The invention will be described in more detail with reference to preferred embodiments and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1: is an external front view of an inverter unit according to a first preferred embodiment of the invention.
Fig. 2: is a front view exposing the inside of the inverter unit according to a preferred embodiment of the invention.
Fig. 3: is a sectional view taken along the plane 3-3 of Fig. 2.
Fig. 4: is an external front view of an inverter unit according to a second embodiment of the invention.
Fig. 5: is a front view exposing the inside of the inverter unit according to the second embodiment of the invention.
Fig. 6: is a cross sectional view of Fig. 5.
Fig. 7: is a vertical sectional view of Fig. 5.
Fig. 8: is an external view showing an option case mounted with an option printed wiring board according to the second embodiment of the invention.
Fig. 9: is a front view of a conventional inverter unit from which a wiring cover has been removed.
Fig. 10: is a sectional view taken along the plane 10-10 of Fig. 9.
Fig. 11: is a front view exposing the inside of the inverter unit known in the art.
Fig. 12: is a vertical sectional view of Fig. 11.
Fig. 13: is a schematic circuit diagram of a conventional inverter unit.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

An inverter unit according to a first embodiment of the present first invention will now be described with reference to Figs. 1 to 3.
Fig. 1 is an external front view of an inverter unit 1, wherein the numeral 27 indicates a front cover, 8 designates a rubber bushing, 9 represents main circuit external cables and 10 control circuit external cables. Fig. 2 is a front view illustrating internal terminal blocks which have been exposed by removing the front cover 27. Fig. 3 is a sectional view taken along the plane 3-3 of Fig. 2 (it should be noted that the front cover 27 remains installed in this Figure).
Mounting holes 2a, 2b, 2c and 2d for installation onto a wall surface or the like are formed in the four corners of the bottom of a chassis 2. The main circuit PWB 3 is placed in the chassis 2 and is mounted with screws in the vicinity of the internal bottom of the chassis 2.
A main circuit external cable connecting terminal block 4 is disposed and mounted in the first orthogonal (horizontal) direction on the bottom of the main circuit PWB 3.
A control circuit PWB 5 is also disposed within the chassis 2 but at a position above the main circuit PWB 3. On the control circuit PWB 5, two control circuit external cable connecting terminal blocks 6 and 7 are arranged in a second orthogonal (vertical) direction with a space provided therebetween.
The main circuit external cables 9 connected to the main circuit external cable connecting terminal block 4 are led to the outside through the rubber bushing 8. The control circuit external cables 10 connected to the control circuit external cable connecting terminal blocks 6, 7 are also directed to the outside through the rubber bushing 8.
A cover 11 is used for protection of components mounted on the control circuit printed wiring board 5 and main circuit printed wiring board 3. The cover 11 is shaped to be in conformity with and adapted to the external shape of the opening of the chassis 2, and is open at the positions of the main circuit external cable connecting terminal block 4 and the control circuit external cable connecting terminal blocks 6, 7 so that the terminal blocks may be exposed and seen from the outside.
Installation of a control apparatus using the present invention comprises the following steps:

(1) Remove the front cover 27.
(2) Insert the main circuit external cables 9 for power supply and load motor into the chassis 2 through the rubber bushing 8 and connect them to the main circuit external cable connecting terminal block 4.
(3) Insert the control circuit external cables 1O for start, stop, speed setting and other signals into the chassis 2 through the rubber bushing 8, route them upwardly perpendicularly past both ends of the main circuit external cable connecting terminal block 4, and connect them to the two vertically disposed control circuit external cable connecting terminal blocks 6, 7 from the outsides thereof.
(4) Finally, reinstall the front cover 27.

In the inverter unit 1, the control circuit external cables 10 do not pass before the main circuit external cable connecting terminal block 4 and are connected to the control circuit external cable connecting terminal blocks 6, 7 from the outsides thereof, allowing wiring to be done without the cables hanging down in front of the main circuit external cable connecting terminal block 4. As a result, it will be easy to check terminal numbers and tighten terminal screws, ensuring ease of wiring and maintenance work.
It will be recognized that the two control circuit terminal blocks disposed in the second orthogonal (vertical) direction in the first embodiment may be either on the right- or left-hand side.
A second embodiment of the invention will now be described with reference to Figs. 4 to 8.
Fig. 4 is an external front view of an inverter unit 18, wherein 27 indicates a front cover, 59 represents main circuit external cables, 60 control circuit external cables, and 66 option external cables. Fig. 5 is a front view illustrating internal terminal blocks which have been exposed by removing the front cover 27. Figs. 6 and 7 are a cross sectional view and a vertical sectional view of Fig. 5, respectively, and Fig. 8 is an external view showing an option case mounted with an option printed wiring board.
On a control circuit printed wiring board 5, as shown in Fig. 7, a control circuit external cable connecting terminal block 6 is disposed and installed in the vertical direction. A plastic cover 12 is used for protection of components mounted on the control circuit printed wiring board 5 and a main circuit printed wiring board 3. The cover 12 is configured to be in conformity with and adapted to the external shape of the opening of a chassis 2. It is also high enough so as to protect the components on the control circuit printed wiring board 5.
Finally, it is recessed on the right-hand side so as to be high enough to protect the components on the main circuit printed wiring board 3. In addition, the cover 12 is open at the positions of a main circuit external cable connecting terminal block 4 and the control circuit external cable connecting terminal block 6 so that the terminal blocks may be exposed and viewed from the outside, and it is also open at the position of a connector section 13 of the control circuit PWB 5.
Both the control circuit PWB 5 and an option circuit PWB 14 are constructed with mating projecting/recess-types of connectors, which permit quick ("one-touch") connect/disconnect of the option circuit PWB 14. An option case 16 which accommodates the option circuit PWB 14 is engaged into a recessed portion of the cover 12, then its connectors are inserted into the corresponding connectors of the control circuit PWB 5, so that the electrical connection is completed. By directly connecting with mating projection/recess connectors, installation using cables or wires will be unnecessary. The option circuit PWB 14 can easily be secured with screws.
On the option circuit printed wiring board 14, an option circuit external cable connecting terminal block 15 is disposed and installed in the vertical direction. The option circuit printed wiring board 14 is housed in an option case 16 and is open at its front face where the option external cable connecting terminal block 15 is located, thereby exposing the terminal block.
The option circuit printed wiring board 14 housed in the option case 16 is fitted into the recess of the cover 12 and inserted into the connector 13 for making the electrical connections. The option case 16 is fastened to the cover 12 by screws 17.
In assembling the connection assembly, first the front cover 27 is removed. When the option circuit printed wiring board 14 is necessary, fit the option circuit printed wiring board 14 housed in the option case 16 into the right-hand side recess of the cover 12 and insert it into the connector 13. Fasten the option case 16 to the cover 12 by means of the screws 17. Insert the main circuit external cables 59 from the bottom into the cover 12 and connect them to the main circuit external cable connecting terminal block 4. Insert the control circuit external cables 60 (for start, stop, speed setting and other control signals) from the bottom into the cover 12, route them upwardly perpendicularly on the left-hand side, and connect them to the vertically disposed control circuit external cable connecting terminal block 6 from the outside thereof. In a similar manner, also insert the option external cables 66 from the bottom into the cover 12, route them upwardly perpendicularly on the right-hand side, and connect them to the vertically disposed option external cable connecting terminal block 15 from the outside thereof. Finally, reinstall the front cover 27. In the inverter unit 18, the option circuit printed wiring board 14 contained in the option case 16 can be installed optionally after the cover 12 has been placed on the inverter unit 18. Also, when the inverter unit 18 is to be replaced after wiring is complete, the option circuit printed wiring board 14 can be removed from the inverter unit 18, with the external cables remaining intact, and reinstalled to a new inverter unit.
It will be appreciated that the control circuit printed wiring board disposed on the left-hand side and the option circuit printed wiring board on the right-hand side in an embodiment may be installed in opposite positions. It should be noted that the present invention is not only applicable to the inverter units but also in general to compact control apparatus.
Although this invention has been described in at least one preferred form with a certain degree of particularity, it is to be understood that the present disclosure of the preferred embodiment has been made only by way of example and that numerous changes in the details and arrangement of components may be made without departing from the spirit and scope of the invention.

Claims

An inverter unit (1, 18) comprising:
- a chassis (2) defining an enclosure having at least a base and side portions;

- a main circuit printed wiring board (3) mounted within the chassis enclosure (2), proximate the bottom portion of the enclosure, and having a main circuit terminal block (4);

- a control circuit printed wiring board (5) mounted over the main circuit printed circuit board (3), and having at least one control circuit terminal block (6, 7);
wherein the main circuit terminal block (4) is disposed in a first orthogonal direction, the control circuit terminal block (6, 7) being disposed in a second orthogonal direction, and the main circuit terminal block (4) being disposed below the control circuit terminal block (6, 7).
The inverter unit as set forth in claim 1,
wherein the chassis enclosure (2) comprises a top portion, an area of the portion being open proximate the terminal blocks (4, 6, 7), and further comprises a cover (11, 12, 27) for the opening.
A machine control apparatus comprising:
- a chassis (2) defining an enclosure having at least a bottom and side portions;

- a main circuit printed wiring board (3) mounted within the chassis enclosure (2), proximate the bottom portion of the enclosure, and having a main circuit terminal block (4) at a first level;

- a control circuit printed wiring board (6, 7) mounted over the main circuit printed circuit board (4), and having at least one control circuit terminal block (6, 7) at a second level; and

- an option circuit printed wiring board (14), mounted to the control circuit printed wiring board (5) and operatively connected thereto, comprising an option circuit terminal block (15),
wherein the control circuit printed wiring board (5) and the option circuit printed wiring board (14) are disposed in parallel and the control circuit and option circuit terminal blocks (6, 7, 14) are disposed substantially perpendicularly to the main circuit terminal block (4) and the first level is different from the second level.
The control apparatus of claim 3,
wherein the option circuit terminal blocks (14) are substantially at the second level.
The control apparatus of claim 3 or 4,
wherein the option circuit printed wiring board (14) and the control circuit wiring board (5) each comprise mating snap-in electrical connection means for permitting quick installation and removal of the option circuit wiring board (14).
The control apparatus of any of claims 3 to 5,
wherein the chassis (2) further comprises a top portion having a receptacle (16) for removably receiving the option circuit wiring board (14).
An inverter apparatus comprising:
- a main circuit printed wiring board (3);

- a control circuit printed wiring board (5);

- a case (2) for accommodating the main circuit printed wiring board (4) and the control circuit printed wiring board (5) disposed substantially parallel with each other;

- an option circuit printed wiring board (14);

- a case cover (11, 12, 27) closing the case (2) containing the main circuit printed wiring board (4) and the control circuit printed wiring board (5) and having a recess formed for accommodating the option circuit printed wiring board (14) substantially parallel with the control circuit printed wiring board (5); and

- an option circuit printed wiring board cover (16) closing the option circuit printed wiring board (14) contained in the recess of the case cover (11, 12, 27).
The inverter apparatus of claim 7,
comprising connecting means on each of the option circuit printed wiring board cover (16) and case cover (11, 12, 27) for releasably mechanically and electrically connecting the option circuit printed wiring board (14) and control circuit wiring board (5).